CN105258332B - Data center module residual neat recovering system - Google Patents

Abstract

The present invention provides a kind of data center module residual neat recovering system, including：Controller, heat exchange mechanisms, compressor, waste heat recovering mechanism, heat exchange mechanisms, compressor, waste heat recovering mechanism have the refrigerating fluid circuit of conducting；Heat exchange mechanisms include the liquid cooling heat exchanger and air cooling heat exchanger of parallel connection；Waste heat recovering mechanism includes the liquid medium heating equipment and gaseous state dielectric heating equipment of parallel connection；The liquid medium heating equipment of waste heat recovering mechanism connects hot water output device, and gaseous medium heating equipment connects hot wind output device；Controller is separately connected liquid cooling heat exchanger and air cooling heat exchanger and is cooled down as the hot wind in data center module using the refrigerating fluid of compressor using controlling liquid cooling heat exchanger or air cooling heat exchanger work；Controller is also respectively connected with liquid medium heating equipment and gaseous state dielectric heating equipment to control liquid medium heating equipment or the work of gaseous medium heating equipment to export hot water or hot wind.

Description

Data center module residual neat recovering system

Technical field

The present invention relates to heat recovery technology fields, particularly relate to a kind of data center module residual neat recovering system.

Background technology

With the development of network technology and the quickening of IT application process, in various Internet data centers, cloud computing data The various large server group constructions such as the heart are also developed rapidly.The large server cluster at available data center is faced with The high problem of energy consumption, this is because large server cluster will produce a large amount of heat at work, according to statistics in a data Only about 15-20% is used for calculating in the electric power of heart consumption and data transmission, the electric power of remaining 80-85% are all each Kind equipment consumes and is converted into thermal energy.And in order to maintain the normal work of large server cluster, it is also necessary to which a large amount of electric power come It radiates.In the prior art and in order to ensure that the normal running temperature of server is had in a manner of forcing cooling to data Computer room cools down, and the medium (empty gas and water etc.) for carrying these waste heats directly will be in heat dissipation to air.At present all Be by water cooling or it is air cooled in a manner of these waste heats are thrown into air, to cause waste and the ring of the energy The pollution in border.

Invention content

The technical problem to be solved in the present invention is to provide a kind of data center module residual neat recovering systems, can reasonably utilize number According to the waste heat of heat dissipation system for computer room, efficent use of resources.

To solve the above-mentioned problems, the embodiment of the present invention proposes a kind of data center module residual neat recovering system, including：Control Device N1, heat exchange mechanisms, compressor 602, waste heat recovering mechanism, wherein the heat exchange mechanisms, compressor, waste heat recovering mechanism have The refrigerating fluid circuit of conducting；

The wherein described heat exchange mechanisms include the liquid cooling heat exchanger 601 and air cooling heat exchanger 300 of parallel connection, the liquid cooling heat exchanger 601 and air cooling heat exchanger 300, liquid cooling heat exchanger 601 and air cooling heat exchanger 300 be separately connected compressor 602, and the controller It connects the liquid cooling heat exchanger 601 and air cooling heat exchanger 300 and is matched with controlling the liquid cooling heat exchanger 601 or air cooling heat exchanger 300 It closes the compressor operating and provides cooling medium as the cooling of data center module 500；The wherein described liquid cooling heat exchanger 601 includes connection institute State the cooling passage of equipment in the refrigerating fluid channel and connection data center module of compressor 602, the cooling passage and refrigeration Liquid channel, which carries out heat exchange in the liquid cooling heat exchanger 601, makes refrigerating fluid be to be transported to the coolant liquid of data center module to be dropped Temperature；The wherein described air cooling heat exchanger 300 includes air duct and refrigerating fluid channel, and the air duct and refrigerating fluid channel air-cooled are changed described Heat exchange is carried out in hot device 300 with the transporting cold wind into the data center module；

The wherein described waste heat recovering mechanism includes the liquid medium heating equipment 603 and gaseous state dielectric heating equipment of parallel connection 903, the liquid medium heating equipment 603 and gaseous state dielectric heating equipment 903 are separately connected the compressor 602 to pass through pressure The cooling medium that heat is absorbed in contracting machine 602 generates hot water/hot wind；The liquid medium heating equipment of the waste heat recovering mechanism 603 connection hot water output devices, and gaseous medium heating equipment 903 connects hot wind output device；The hot water output device packet Include hot water Water-storage tank 800, wherein the hot water Water-storage tank 800 be connected to liquid medium heating equipment 603 and with the liquid The conducting of state dielectric heating equipment 603 forms heating circuit, to be set as liquid medium heating by the water in hot water Water-storage tank 800 After heated refrigerating fluid cooling in standby 603, then the water for absorbing heat is transmitted back to hot water Water-storage tank by heating circuit 800；The hot wind output device includes air duct, wind turbine in tunnel inlet is arranged, the heat exchanging part that is arranged in air duct；Wherein change Hot portion connect the compressor 602 with by wind turbine convey come wind the heated refrigerating fluid in compressor 602 is cooled down And export hot wind；

Wherein, the controller N1 is separately connected the liquid cooling heat exchanger 601 and air cooling heat exchanger 300 to control the liquid Cold heat exchanger 601 or the work of air cooling heat exchanger 300 are carried out using the refrigerating fluid of compressor 602 for the hot wind in data center module cold But；The controller N1 is also respectively connected with the liquid medium heating equipment 603 and gaseous state dielectric heating equipment 903 to control State dielectric heating equipment 603 or the work of gaseous medium heating equipment 903 are stated to export hot water or hot wind.

Wherein, the liquid cooling heat exchanger 601 is by the first solenoid valve V1 connections compressor 602, and passes through the second electricity Magnet valve V2 connection liquid mediums heating equipment 603 and gaseous state dielectric heating equipment 903 include at least liquid cooling heat exchanger to be formed 601, compressor 602, liquid medium heating equipment 603 the first circuit and including at least liquid cooling heat exchanger 601, compressor 602, The second servo loop of gaseous medium heating equipment 903；The air cooling heat exchanger 300 passes through the third solenoid valve V3 connections compressor 602, and by the 4th solenoid valve V4 connections liquid medium heating equipment 603 and gaseous state dielectric heating equipment 903 to be formed It changes including at least air cooling heat exchanger 300, compressor 602, the tertiary circuit of liquid medium heating equipment 603 and including at least air-cooled 4th circuit of hot device 300, compressor 602, gaseous medium heating equipment 903；The wherein described controller N1 is separately connected described First solenoid valve V1, second solenoid valve V2, third solenoid valve V3, the 4th solenoid valve V4.

Wherein, the liquid medium heating equipment 603 is by the 5th solenoid valve V5 connections compressor 602, and passes through The 6th solenoid valve V6 connections liquid medium heating equipment 603 and gaseous state dielectric heating equipment 903；The gaseous medium heating Equipment 903 adds by the 7th solenoid valve V7 connections compressor 602, and by the 8th solenoid valve V8 connections liquid medium Hot equipment 603 and gaseous state dielectric heating equipment 903.

Wherein, expansion valve 604 is equipped between the liquid cooling heat exchanger 601 and liquid medium heating equipment 603.

Wherein, the cooling water output end of the liquid cooling heat exchanger 601 is equipped with the first temperature testing organization T1, first temperature Spend the testing agency T1 connections controller N1；The refrigerating fluid input terminal of the gaseous medium heating equipment 903 is equipped with the second temperature Spend testing agency T2, the second temperature testing agency T2 connections controller N1；The is equipped in the hot water Water-storage tank Three temperature testing organization T3, the third temperature testing organization T3 connections controller N1.

Wherein, water level detecting mechanism 802 is equipped in the hot water Water-storage tank 800, the water level detecting mechanism 802 connects The controller N1；The hot water Water-storage tank 800 is equipped with water supply pipe 801, and the water supply pipe 801 is equipped with water compensating valve, described Controller N1 connects the water compensating valve to control unlatching/closing of the water compensating valve.

Wherein, further include the air-supply air hose 501 being arranged in data center module 500 and return air air hose 502, wherein the air-supply Air hose 501 and return air air hose 502 are connected by air cooling heat exchanger 300, by the hot-air in data center module from return air air hose 502 After sucking, sent back in data center module 500 by air hose 501 of blowing again after being cooled down by air cooling heat exchanger 300.

Wherein, further include the heating air duct being arranged in room to be heated, the heating air duct includes ajutage 901 and returns Air hose 902；The ajutage 901 and backwind tube 902 are connected by described to add to the air in the room to be heated Heat.

Wherein, wind turbine 301 is equipped in the air duct of the air cooling heat exchanger 300.

Wherein, the refrigerating fluid is low boiling working fluid under normal pressure.

The above-mentioned technical proposal of the present invention has the beneficial effect that：

In said program, hot water output device is used to recycle to prevent waste of energy the heat that condenser is sent out, And above system is simply easily realized, is at low cost.

Description of the drawings

Fig. 1 is the structural schematic diagram of the embodiment of the present invention.

Specific implementation mode

To keep the technical problem to be solved in the present invention, technical solution and advantage clearer, below in conjunction with attached drawing and tool Body embodiment is described in detail.

The problem of being all wasted for the heat that the large server cluster of data center in the prior art distributes, The embodiment of the present invention proposes a kind of data center module residual neat recovering system as shown in Figure 1, including：Controller N1, heat exchange mechanisms, Compressor 602, waste heat recovering mechanism, wherein there is the refrigerating fluid of conducting to return for the heat exchange mechanisms, compressor, waste heat recovering mechanism Road；

The wherein described heat exchange mechanisms include the liquid cooling heat exchanger 601 and air cooling heat exchanger 300 of parallel connection, the liquid cooling heat exchanger 601 and air cooling heat exchanger 300, liquid cooling heat exchanger 601 and air cooling heat exchanger 300 be separately connected compressor 602, and the controller It connects the liquid cooling heat exchanger 601 and air cooling heat exchanger 300 and is matched with controlling the liquid cooling heat exchanger 601 or air cooling heat exchanger 300 It closes the compressor operating and provides cooling medium as the cooling of data center module 500；The wherein described liquid cooling heat exchanger 601 includes connection institute State the cooling passage of equipment in the refrigerating fluid channel and connection data center module of compressor 602, the cooling passage and refrigeration Liquid channel, which carries out heat exchange in the liquid cooling heat exchanger 601, makes refrigerating fluid be to be transported to the coolant liquid of data center module to be dropped Temperature；The wherein described air cooling heat exchanger 300 includes air duct and refrigerating fluid channel, and the air duct and refrigerating fluid channel air-cooled are changed described Heat exchange is carried out in hot device 300 with the transporting cold wind into the data center module；

The wherein described waste heat recovering mechanism includes the liquid medium heating equipment 603 and gaseous state dielectric heating equipment of parallel connection 903, the liquid medium heating equipment 603 and gaseous state dielectric heating equipment 903 are separately connected the compressor 602 to pass through pressure The cooling medium that heat is absorbed in contracting machine 602 generates hot water/hot wind；The liquid medium heating equipment of the waste heat recovering mechanism 603 connection hot water output devices, and gaseous medium heating equipment 903 connects hot wind output device；The hot water output device packet Include hot water Water-storage tank 800, wherein the hot water Water-storage tank 800 be connected to liquid medium heating equipment 603 and with the liquid The conducting of state dielectric heating equipment 603 forms heating circuit, to be set as liquid medium heating by the water in hot water Water-storage tank 800 After heated refrigerating fluid cooling in standby 603, then the water for absorbing heat is transmitted back to hot water Water-storage tank by heating circuit 800；The hot wind output device includes air duct, wind turbine in tunnel inlet is arranged, the heat exchanging part that is arranged in air duct；Wherein change Hot portion connect the compressor 602 with by wind turbine convey come wind the heated refrigerating fluid in compressor 602 is cooled down And export hot wind；

Wherein, the controller N1 is separately connected the liquid cooling heat exchanger 601 and air cooling heat exchanger 300 to control the liquid Cold heat exchanger 601 or the work of air cooling heat exchanger 300 are carried out using the refrigerating fluid of compressor 602 for the hot wind in data center module cold But；The controller N1 is also respectively connected with the liquid medium heating equipment 603 and gaseous state dielectric heating equipment 903 to control State dielectric heating equipment 603 or the work of gaseous medium heating equipment 903 are stated to export hot water or hot wind.

Wherein, the liquid cooling heat exchanger 601 is by the first solenoid valve V1 connections compressor 602, and passes through the second electricity Magnet valve V2 connection liquid mediums heating equipment 603 and gaseous state dielectric heating equipment 903 include at least liquid cooling heat exchanger to be formed 601, compressor 602, liquid medium heating equipment 603 the first circuit and including at least liquid cooling heat exchanger 601, compressor 602, The second servo loop of gaseous medium heating equipment 903；The air cooling heat exchanger 300 passes through the third solenoid valve V3 connections compressor 602, and by the 4th solenoid valve V4 connections liquid medium heating equipment 603 and gaseous state dielectric heating equipment 903 to be formed It changes including at least air cooling heat exchanger 300, compressor 602, the tertiary circuit of liquid medium heating equipment 603 and including at least air-cooled 4th circuit of hot device 300, compressor 602, gaseous medium heating equipment 903；The wherein described controller N1 is separately connected described First solenoid valve V1, second solenoid valve V2, third solenoid valve V3, the 4th solenoid valve V4.

Wherein, the liquid medium heating equipment 603 is by the 5th solenoid valve V5 connections compressor 602, and passes through The 6th solenoid valve V6 connections liquid medium heating equipment 603 and gaseous state dielectric heating equipment 903；The gaseous medium heating Equipment 903 adds by the 7th solenoid valve V7 connections compressor 602, and by the 8th solenoid valve V8 connections liquid medium Hot equipment 603 and gaseous state dielectric heating equipment 903.

Wherein, expansion valve 604 is equipped between the liquid cooling heat exchanger 601 and liquid medium heating equipment 603.

Wherein, the cooling water output end of the liquid cooling heat exchanger 601 is equipped with the first temperature testing organization T1, first temperature Spend the testing agency T1 connections controller N1；The refrigerating fluid input terminal of the gaseous medium heating equipment 903 is equipped with the second temperature Spend testing agency T2, the second temperature testing agency T2 connections controller N1；The is equipped in the hot water Water-storage tank Three temperature testing organization T3, the third temperature testing organization T3 connections controller N1.

Wherein, water level detecting mechanism 802 is equipped in the hot water Water-storage tank 800, the water level detecting mechanism 802 connects The controller N1；The hot water Water-storage tank 800 is equipped with water supply pipe 801, and the water supply pipe 801 is equipped with water compensating valve, described Controller N1 connects the water compensating valve to control unlatching/closing of the water compensating valve.

Wherein, further include the air-supply air hose 501 being arranged in data center module 500 and return air air hose 502, wherein the air-supply Air hose 501 and return air air hose 502 are connected by air cooling heat exchanger 300, by the hot-air in data center module from return air air hose 502 After sucking, sent back in data center module 500 by air hose 501 of blowing again after being cooled down by air cooling heat exchanger 300.

Wherein, further include the heating air duct being arranged in room to be heated, the heating air duct includes ajutage 901 and returns Air hose 902；The ajutage 901 and backwind tube 902 are connected by described to add to the air in the room to be heated Heat.

Wherein, wind turbine 301 is equipped in the air duct of the air cooling heat exchanger 300.

Wherein, the refrigerating fluid is low boiling working fluid under normal pressure.

In embodiments of the present invention, in order to ensure the heat dissipation effect of data center module, hot Fin-tube Condenser with it is board-like cold Condenser is respectively required for according to the issuable maximum heat configuration of data center module.In order to maximize recuperation of heat effect, heat The maximum that wind output device and hot water output device also can respectively be generated according to hot Fin-tube Condenser and plate-type condenser Heat setting.

Wherein, used in the embodiment of the present invention is the refrigerating fluid for having at low pressures higher temperature, therefore can be received Higher evaporating temperature can also obtain higher condensation temperature to obtain higher temperature to obtain larger refrigerating capacity Hot water/hot wind.

Wherein, the compressor 602 can be following any：Scroll compressor, screw compressor, piston type pressure Contracting machine, centrifugal compressor.

The system that the embodiment of the present invention proposes, operation principle are as follows：The heat exchange mechanisms of the embodiment of the present invention have two sets it is each From independent cooling system：Liquid cooling heat exchanger 601 and air cooling heat exchanger 300 parallel with one another；And waste heat recovering mechanism also includes Two sets of separate heat recovery systems：Liquid medium heating equipment 603 and gaseous state dielectric heating equipment 903 parallel with one another. Two sets of above-mentioned cooling systems and recuperation of heat work alternatively under the control of controller N1：Both liquid cooling, which may be used, to adopt Cooled down for data center module 500 with air-cooled, while no matter which kind of cooling means used, the waste heat of discharge can be passed through liquid Dielectric heating equipment becomes hot water or gaseous medium heating equipment becomes hot wind.

When in use, when the first temperature sensor T1 detects that the liquid medium for being collected heat reaches data center apparatus When the temperature upper limit that cooling system allows, solenoid valve V1, V2, V5, V6 are opened simultaneously, and solenoid valve V3, V4, V7, V8 are closed, working medium Temperature lifting means (compressor), liquid medium circulating pump, heating water circulating pump start simultaneously, the wind of gaseous medium heating equipment Organ closes.

What is filled in Temperature of Working lifting means (compressor) circulation loop is to have higher temperature at low pressures Low boiling working fluid under normal pressure.

Residual neat recovering system is configured according to the issuable maximum heat of data center module, hot water Water-storage tank be by Most water settings can be prepared according to residual neat recovering system.

Liquid medium (such as water or oil) from data center module, carrying waste heat enters heat collection equipment, with this Low boiling working fluid being simultaneously from liquid medium heating equipment, throttling by expansion valve enters heat collection equipment, more than carrying The liquid medium (such as water or oil) of heat releases heat to low boiling working fluid and sends back to data center module after cooling down, and low boiling point Working medium absorb carry waste heat liquid medium heat after fully gasify and enter Temperature of Working lifting means (compressor).Gas Pressure improves body after Temperature of Working lifting means (compressor), temperature accordingly improves, and becomes high-temperature gas；At the same time, The heated circulating pump of water from hot water Water-storage tank is transported to liquid medium heating equipment, after the heat for absorbing high-temperature gas Temperature raising is again introduced into hot water Water-storage tank；At the same time low boiling working fluid gas is condensed into liquid because heat is released； Enter heat collection equipment after the throttling of liquid low boiling working fluid expanded valve, cooling --- so constitute steam compression type refrigeration, Heating cycle.

3.2.3 the workflow when medium for being collected heat is air and heated medium is water

When temperature sensor T2 detects that the air for being collected heat reaches the temperature of data center apparatus cooling system permission When spending the upper limit, solenoid valve V3, V4, V5, V6 are opened simultaneously, and solenoid valve V1, V2, V7, V8 are closed；Temperature of Working lifting means (pressure Contracting machine), the wind turbine of gaseous medium heat collecting device start, heated water re-circulation's pump startup, the wind turbine of gaseous medium heating equipment It closes.

Hot-air from data center module, carrying waste heat enters gaseous medium heat collecting device through return air air hose, with Low boiling point matter that this is simultaneously from liquid medium heating equipment, throttling by expansion valve enters the collection of gaseous medium heat and sets It is standby, it carries the air of waste heat and releases heat to low boiling working fluid and be sent to data center module through air hose of blowing after cooling down, and low boiling point Working medium absorb carry waste heat liquid medium heat after fully gasify and enter Temperature of Working lifting means (compressor).It is low Pressure improves boiling point Working medium gas after Temperature of Working lifting means (compressor), temperature accordingly improves, and becomes high-temperature gas； At the same time, the heated circulating pump of water from hot water Water-storage tank is transported to liquid medium heating equipment, absorbs High Temperature Gas Temperature raising is again introduced into hot water Water-storage tank after the heat of body；At the same time low boiling working fluid gas is coagulated because heat is released Become liquid；Enter heat collection equipment after the expanded valve throttling of liquid low boiling working fluid, cooling --- so constitute vapour pressure Compression type refrigerating, heating cycle.

3.2.4 the workflow when medium for being collected heat is liquid and heated medium is air

When temperature sensor T1 detects that the liquid medium for being collected heat reaches data center apparatus cooling system and allows Temperature upper limit when, solenoid valve V1, V2, V7, V8 are opened simultaneously, and solenoid valve V3, V4, V5, V6 is closed；Temperature of Working lifting means (compressor), liquid medium circulating pump, gaseous medium heating equipment wind turbine start simultaneously, healed water circulation pump.

Liquid medium (such as water or oil) from data center module, carrying waste heat enters heat collection equipment, with this Low boiling working fluid being simultaneously from gaseous medium heating equipment, throttling by expansion valve enters heat collection equipment, more than carrying The liquid medium (such as water or oil) of heat releases heat to low boiling working fluid and sends back to data center module after cooling down, and low boiling point Working medium absorb carry waste heat liquid medium heat after fully gasify and enter Temperature of Working lifting means (compressor).Gas Pressure improves body after Temperature of Working lifting means (compressor), temperature accordingly improves, and becomes high-temperature gas；At the same time, Air from the lower temperature for needing hot-air user is transported to gaseous medium heating equipment through wind turbine and return air air hose, absorbs Temperature increases the user for entering through air hose of blowing need hot-air again after the heat of high-temperature gas；At the same time low boiling point work Matter gas is condensed into liquid because heat is released；Enter liquid medium after the expanded valve throttling of liquid low boiling working fluid, cooling Heat collection equipment --- so constitute steam compression type refrigeration, heating cycle.

3.2.5 the workflow when medium for being collected heat is air and heated medium is air

When temperature sensor T2 detects that the air for being collected heat reaches the temperature of data center apparatus cooling system permission When spending the upper limit, solenoid valve V3, V4, V7, V8 are opened simultaneously, and solenoid valve V1, V2, V5, V6 are closed；Temperature of Working lifting means (pressure Contracting machine) start, the wind turbine of gaseous medium heat collecting device starts, the wind turbine of gaseous medium heating equipment starts, healed water Circulation pump.Liquid medium circulation pump.

It, can annual lasting output hot water/hot wind since data center module is annual, continuous work all day.This hair Bright system is suitable for, for the cooling system of the data center occurred in recent years, the refrigeration of waste heat being absorbed from data center module The thermal energy of liquid (or other kinds of refrigerant) is converted into the form output of hot water/hot wind.

The above is the preferred embodiment of the present invention, it is noted that for those skilled in the art For, without departing from the principles of the present invention, it can also make several improvements and retouch, these improvements and modifications It should be regarded as protection scope of the present invention.

Claims (10)

1. a kind of data center module residual neat recovering system, which is characterized in that including：Controller, heat exchange mechanisms, compressor, waste heat return Mechanism is received, wherein the heat exchange mechanisms, compressor, waste heat recovering mechanism have the refrigerating fluid circuit of conducting；

The wherein described heat exchange mechanisms include the liquid cooling heat exchanger and air cooling heat exchanger of parallel connection, the liquid cooling heat exchanger and air-cooled heat exchange Device is separately connected compressor, and the controller connects the liquid cooling heat exchanger and air cooling heat exchanger and exchanged heat with controlling the liquid cooling Device or air cooling heat exchanger coordinate the compressor operating to provide cooling medium as data center module cooling；The wherein described liquid cooling heat exchanger The cooling passage of equipment, the cooling passage in refrigerating fluid channel and connection data center module including connecting the compressor Carrying out heat exchange in the liquid cooling heat exchanger with refrigerating fluid channel makes refrigerating fluid be the coolant liquid progress for being transported to data center module Cooling；The wherein described air cooling heat exchanger includes air duct and refrigerating fluid channel, and the air duct and refrigerating fluid channel air-cooled are changed described Heat exchange is carried out in hot device with the transporting cold wind into the data center module；

The wherein described waste heat recovering mechanism includes the liquid medium heating equipment and gaseous state dielectric heating equipment of parallel connection, the liquid Dielectric heating equipment and gaseous state dielectric heating equipment are separately connected the compressor with by absorbing the cold of heat in compressor But medium generates hot water/hot wind；The liquid medium heating equipment of the waste heat recovering mechanism connects hot water output device, and gaseous state Dielectric heating equipment connects hot wind output device；The hot water output device includes hot water Water-storage tank, wherein the hot water stores up Standby water tank is connected to liquid medium heating equipment and is connected to form heating circuit with the liquid medium heating equipment, to pass through heat After water in water Water-storage tank is the heated refrigerating fluid cooling in liquid medium heating equipment, then the water for absorbing heat led to It crosses heating circuit and is transmitted back to hot water Water-storage tank；The hot wind output device includes air duct, be arranged tunnel inlet wind turbine, set Set the heat exchanging part in air duct；Wherein heat exchanging part connect the compressor with by wind turbine convey come wind in compressor by The refrigerating fluid of heat is cooled down and exports hot wind；

Wherein, the controller is separately connected the liquid cooling heat exchanger and air cooling heat exchanger to control the liquid cooling heat exchanger or wind Cold heat exchanger, which works, to be cooled down using the refrigerating fluid of compressor for the hot wind in data center module；The controller is also respectively connected with The liquid medium heating equipment and gaseous state dielectric heating equipment are added with controlling the liquid medium heating equipment or gaseous medium Hot equipment work is to export hot water or hot wind.

2. data center module residual neat recovering system according to claim 1, which is characterized in that the liquid cooling heat exchanger passes through One solenoid valve connects the compressor, and connects liquid medium heating equipment and gaseous state dielectric heating equipment by second solenoid valve With formed including at least liquid cooling heat exchanger, compressor, liquid medium heating equipment the first circuit and including at least liquid cooling exchange heat The second servo loop of device, compressor, gaseous medium heating equipment；The air cooling heat exchanger connects the compression by third solenoid valve Machine, and the liquid medium heating equipment and gaseous state dielectric heating equipment are connected by the 4th solenoid valve and include at least wind to be formed Cold heat exchanger, compressor, liquid medium heating equipment tertiary circuit and including at least air cooling heat exchanger, compressor, gaseous state be situated between 4th circuit of matter heating equipment；The wherein described controller is separately connected first solenoid valve, second solenoid valve, third electromagnetism Valve, the 4th solenoid valve.

3. data center module residual neat recovering system according to claim 1 or 2, which is characterized in that the liquid medium heating Equipment connects the compressor by the 5th solenoid valve, and gentle by the 6th solenoid valve connection liquid medium heating equipment State dielectric heating equipment；The gaseous medium heating equipment connects the compressor by the 7th solenoid valve, and passes through the 8th electricity Magnet valve connects the liquid medium heating equipment and gaseous state dielectric heating equipment.

4. data center module residual neat recovering system according to claim 1, which is characterized in that the liquid cooling heat exchanger and liquid Expansion valve is equipped between dielectric heating equipment.

5. data center module residual neat recovering system according to claim 1, which is characterized in that the cooling of the liquid cooling heat exchanger Water output end is equipped with the first temperature testing organization, and first temperature testing organization connects the controller；The gaseous medium The refrigerating fluid input terminal of heating equipment is equipped with second temperature testing agency, and the second temperature testing agency connects the control Device；Third temperature testing organization is equipped in the hot water Water-storage tank, the third temperature testing organization connects the controller.

6. data center module residual neat recovering system according to claim 1, which is characterized in that set in the hot water Water-storage tank There are water level detecting mechanism, the water level detecting mechanism to connect the controller；The hot water Water-storage tank is equipped with water supply pipe, described Water supply pipe is equipped with water compensating valve, and the controller connects the water compensating valve to control unlatching/closing of the water compensating valve.

7. data center module residual neat recovering system according to claim 1, which is characterized in that further include being arranged in data center module Interior air-supply air hose and return air air hose, wherein the air-supply air hose and return air air hose are connected by air cooling heat exchanger, by data Hot-air in computer room sends data center module back to by air hose of blowing again after the sucking of return air air hose after being cooled down by air cooling heat exchanger It is interior.

8. data center module residual neat recovering system according to claim 1, which is characterized in that further include being arranged in room to be heated Interior heating air duct, the heating air duct includes ajutage and backwind tube；The ajutage and backwind tube pass through the conducting To be heated to the air in the room to be heated.

9. data center module residual neat recovering system according to claim 1, which is characterized in that the air duct of the air cooling heat exchanger It is interior to be equipped with wind turbine.

10. data center module residual neat recovering system according to claim 1, which is characterized in that the refrigerating fluid is under normal pressure Low boiling working fluid.